Development of the Level-1 track trigger with Central Drift Chamber detector in Belle II experiment and its performance in SuperKEKB 2019 Phase 3 operation

Y.-T. Lai; M. Aoyama; H. Bae; S. Bähr; M.-C. Chang; H. Hayashii; Y. Iwasaki; J.-B. Kim; K.-T. Kim; C. Kiesling; T. Koga; P.-C. Lu; S.-M. Liu; F. Meggendorfer; H.-K. Moon; T.-J. Moon; H. Nakazawa; P. Rados; A. Rostomyan; J.-G. Shiu; S. Skambraks; T.-A. Sheng; Y. Sue; K. Unger; C.-H. Wang; E. Won; J. Yin

doi:10.1088/1748-0221/15/06/C06063

Journal of Instrumentation

Development of the Level-1 track trigger with Central Drift Chamber detector in Belle II experiment and its performance in SuperKEKB 2019 Phase 3 operation

Y.-T. Lai¹, M. Aoyama², H. Bae³, S. Bähr⁴, M.-C. Chang⁵, H. Hayashii², Y. Iwasaki¹, J.-B. Kim⁷, K.-T. Kim⁷, C. Kiesling⁸, T. Koga¹, P.-C. Lu⁶, S.-M. Liu⁹, F. Meggendorfer⁸, H.-K. Moon⁷, T.-J. Moon⁷, H. Nakazawa⁶, P. Rados¹⁰, A. Rostomyan¹⁰, J.-G. Shiu⁶, S. Skambraks⁸, T.-A. Sheng⁶, Y. Sue¹¹, K. Unger⁴, C.-H. Wang⁹, E. Won⁷ and J. Yin⁷

Published 30 June 2020 • © 2020 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 15, June 2020 The International Conference Instrumentation for Colliding Beam Physics (INSTR2020) Citation Y.-T. Lai et al 2020 JINST 15 C06063 DOI 10.1088/1748-0221/15/06/C06063

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¹ High Energy Accelerator Research Organization (KEK), Tsukuba, Japan

² Nara Women's University, Nara, Japan

³ The University of Tokyo, Tokyo, Japan

⁴ Karlsruhe Institute of Technology, Karlsruhe, Germany

⁵ Fu Jen Catholic University, New Taipei City, Taiwan

⁶ National Taiwan University, Taipei, Taiwan

⁷ Korea University, Seoul, Korea

⁸ Max-Planck-institut für Physik, Munich, Germany

⁹ National United University, Miaoli, Taiwan

¹⁰ Deutsches Elektronen Synchrotron (DESY), Hamburg, Germany

¹¹ Nagoya University, Nagoya, Japan

Dates

Received 22 April 2020
Accepted 30 April 2020
Published 30 June 2020

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Abstract

The Level-1 trigger system (TRG) in the Belle II experiment is designed to summarize real-time sub-detectors information by using FPGA chips for the central data acquisition (DAQ) system, and it includes several sub-trigger systems for triggering various types of physics events in interest. The main focus in this report is CDCTRG: the track trigger system with Central Drift Chamber (CDC) detector, which is responsible for the real-time trajectory reconstruction of charged particles with various algorithms: Track-Segment Finder, 2D, 3D, Neuro-3D, and short tracking. CDCTRG is necessary for specific types of physics, such as hadronic and μ pair. This paper will introduce the design of the hardware system and algorithm implementation in FPGAs. Development, validation and performance of each CDCTRG module during SuperKEKB beam collision operation will also be discussed in detail.

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